Time-recorder.



TNESSESQ J. F. KIELY. TIME RECORDER.

APPLICATION FILED JULY 6, 1910.

COLUMBIA PLANOGRAPH COHWASIHINGTON, n. C.

Patented Feb. 17,1914.

9 SHEETS-SHEET 1.

BY 7 no? f'Y t-L ATTORNEYS J. F. KIELY.

TIME RECORDER.

APBLIOATION IILED'JULY e, 1910.

1,087,665, Patented Feb. 17, 1914.

9 SHBETS-BHBET 2.

BY N AZ f 6 71. 14

'V W ATTORNEYS .J. F. KIELY. TIME RECORDER.

APPLICATION IILED JULY 6,1910. 1,087,665.

Patented Feb. 17,1914

9 SHEETS-SHEET 3. v W A j.

COLUMBIA vuuocnpn -c c.. \usmrgamu, 15. c.

J. P. KIELY.

TIME RECORDER.

APPLIOATION FILED JULY s, 191o.

9 SHBBT3-BHEET 4.

M ATTOR EYs co|.umum PLANOGRAPH c0" WASHINGTON. n. c.

J. F. KIELY.

TIME RECORDER.

APPLICATION FILED JULY 6, 1910.

Patented Feb. 17, 1914.

9 SHEETS-SHEET 6.

YINVENTOR WITNESSES: R

- Maw 7 J. F. KIELY. TIME RECORDER.

. 1 APPLICATION FILED JULY 6, 1910.

Patented Feb. 17,1914.

9 SHEETS-SHEET 6.

TTO NEYS COLUMBIA PLANOGRAPH C0.,WASH|NUTDN, D. c.

J. F. KIELY. TIME RECORDER. APPLICATION FILED JULY 6, 1910.

J. F. KIELY. TIME BEGORDER.

APPLIOATION FILED JULY 6, 1910.

1,087,665, Patented Feb. 17, 1914 9 SHEETS-BKEET 8.

III/Ill);

JIIIIIIIIIA WITNESSES:

BY WWW I "W e e TTORNEYS COLUMBIA PLANoolArn 60.,WA'mlNlrrvu. n. e.

LP. KIELY.

7 TIME RECORDER. APPLIbATION FILED JULY 6, 1910.

1,087,665, Patented Feb. 17, 1914.

9 SHEETS8HEET 9.

THURSDAY FRIDAY WEDNESDAY TUES DAY MONDAY WITNESSES:

COLUMBIA PLANOGRAPH co., WASHINGTON, D. C.

UNITED STATES PATENT OFFICE.

JAMES F. KIELY, OF SYRACUSE, NEW YORK.

TIME-RECORDER.

To all whom it may concern:

Be it known that I, Janus F. Kinny, a citizen of the United States, residing at Syracuse, in the county of Onondaga and State of New York, have invented certain new and useful Improvements in Time-Recorders, of which the following is a full, clear, and exact description.

This invention relates to time-recorders, more particularly to the mechanism for effecting a relative movement of adjustment between the printing instnn'nentalities, and its chief object is to provide improved means whereby after a workman has made his first registration on any day each succeeding actuation of the machine by the same workman on the same day will produce a preliminary adjustment of the printing instrumentalities to bring a fresh space to the impression point.

A further object is to provide means whereby a second imprint cannot be made on any space already printed, thus avoiding the making of illegible imprints by accident, or with fraudulent intent on the part of a workman to obliterate or render illegible an imprint indicating a late arrival or early departure.

To these and other ends the invention consists in the novel features of construction and combinations of elements hereinafter described, and more particularly set forth in the appended claims.

While the invention is capable of employment with time-recorders of various types I have selected for illustration and specific clescription herein its embodiment in a recorder of the so-called dial type, as exhibiting the various features of the invention in convenient and effective form.

Referring now to the accompanying drawings, in which the embodiment. mentioned is shown, Figure 1 is a side view of the complete apparatus, with the outer casing and dial in vertical section. Fig. 2 is a front view of the machine, showing the dial bear ing the workmens numbers, and the manual operating lever which is actuated to produce the time records. Fig. 3 is a detail sectional view, on a larger scale, showing the mechanism immediately cooperating with the impression cylinder or drum to effect the preliminary shifting or adjustment of the same with re. iect to the time printing wheel or wheels. Fig. 41- is a similar view of the same mechanism, with other cooperating parts.

Specification of Letters Patent.

Application filed July 6, 1916.

Patented Feb. 1 7,1914.

Serial No. 570,538.

Figs. 5, 6, and 7 are detail views of the time controlled mechanism for shifting the typewheel carriage from day to day. Fig. 8 is arear view of the crown of ratchet pins employed to limit the movement of the impression drum. Fig. 9 is a detail view of the devices employed in connection with the machine when but six day-spaces are provided for, to prevent shifting of the type -wheel carriage between Saturday night and Monday night. Figs. 10 and 11 are detail views showing different operative positions of the devices employed to prevent too vigorous actuation of the machine, such as might cause injury thereto. Fig. 12 is a detail side view, partly in section, of the mechanism shown in Fig. 3, but in a different operative position. Fig. 13 is a rear view of the parts shown in Fig. 12. Figs, 14, 15, 1G, and 17 are detail views showing different operative positions of one of the ratchet pins which serve to limit the preliminary adjustment or shifting of the impression drum or platen. Fig. 18 is a detail view of the gong or hell and the mechanism for sounding the same at each imprint. Fig. 19 is a detail view of the escapement device employed in connection with the mechanism for shifting the type-wheel carriage from day to day. Fig. 20 is a plan view of the record sheet used in the machine, showing a days record. Fig. 21 is a detail cross section of the impres sion drum showing the means for securing the record sheet thereon. Fig. 22 is an end view of the complete drum with the record sheet in place.

The detailed construction and operation of the machine will be more readily understood if a brief description is first given of its more general features, with reference to Figs. 1 and On the outside of the front end of the inclosing casing A is a dial B having at its periphery a circular series of apertures C of any suitable number, for ex ample one hundred as in the machine illustrated. Each of these apertures is designated by a number, as shown, and to each workman a number is assigned. Journaled at center of the dial is a rotatable shaft D, and fixed to the shaft is an arm E at one end of which is pivoted an end of the printing lever F carrying at its outer end an operating knob G and a rearwardiy extending pin or stem H in position to enter any of the apertures C. Now when a workman desires to register the time of his arrival or deparhorizontal line; and to effect this spacing,

ture he first swings the printing lever around to his number on the dial. This movement of the lever rotates the rearwardly extending shaft D on which is mounted the impression drum J and brings to the impression point under the type-wheel or printing carriage K his own individual line on the record sheet L carried by the drum. Having thus brought the pin H into register with the aperture corresponding to his number, he next presses the pin into the aperture by pushing on the operating knob G. his movement of the lever causes the printing carriage to be depressed, bringing the time-printing devices into contact with the record sheet. Upon release of the knob the lever is thrown out to its normal position and the printing carriage is raised, leaving the parts in position for actuation by the next workman. As shown in Figs. 1 and 20 the record sheet is ruled in horizontal lines, one for each employee, and in wide vertical columns, seven in the present instance, one for the names of the employees and the rest for the six working days. On line 5, in the Monday column, (Fig. 20), is shown the days time record of employee No. 5, from which it appears that on the day named he arrived at the factory or office at 7, went out for his noon meal at 12 :10, returned to work at 12:50, and left for the day at 5 :45. The printing carriage 20 is capable of horizontal movement, and for this purpose is slidably mounted in a frame M. The latter is slid ably mounted on a horizontal rail N, from which said frame is hung, and suitable mechanism actuated by or under the control of the clock O is provided to shift the frame and carriage from day to day for the purpose of bringing the printing carriage over the next (lay-column on the record sheet. As will be noted from Fig. 20, the employees arrival and departure records for a given day are printed in succession on the same mechanism is provided for producing relative movement between the drum and the type-wheel carriage immediately before each registration after the workm'ans first registration in the morning. Inasmuch as the printing carriage is shifted to effect the dayto-day spacing, it is in general simpler and more convenient to shift the impression drum to effect the arrival-and-departure, or the in-and-out spacing, and accordingly this plan. is the one adopted in the machine illustrated.

Having thus explained in a general way the construction and operation of the invention as exemplified in its preferred embodiment 1 shall now proceed to describe the construction and operation in detail.

The mechanism for shifting the printing carriage-The supporting frame M has connected to it a band 25, extending rearwardly l over an idler 26 at the rear of the machine, and forwardly over a spring-driven actuating drum 27 at the front. This actuating drum constantly tends to rotate in the clock wise direction (as viewed in Fig. 1) and hence if unrestrained would draw the carriage forward on the supporting rail N. Rigidly attached to the driving or shifting drum is a gear 28 (see Fig. 7) meshing with a gear 29 on a vertical shaft 30 which carries at its bottom a stop-disk 31, the latter being mounted on a sleeve 32 provided. with a vertical slot 33 engaging a pin 34]; on the shaft, thus causing the disk and shaft to rotate together under the influence of the spring 27 which actuates the drum 2? but permitting the disk to be depressed on the shaft against the tension of an elevating spring The disk is provided at its periphery with one or more upwardly extending steps, 36, three such stops being employed in the machine illustrated, and adjacent to the disk is a ro tatalole escapement device 3'? arranged with its periphery in the path of the stops 36. This escapement device (see Figs. 6, 7, and 19) is composed of two disks 37, 37 arranged side by side on a horizontal shaft 38, to which the disk if is rigidly attached and which is connected with the clock in such manner as to be rotated thereby through one complete revolution each day. The disk 37 is loose on the shaft, but is provided with a pin 39 extending through an arc-shaped slot 40 in the other disk and yieldingly connected with the disk 3*. by a light spring 411,. Each disk is provided at its periphery with a notch (shown in Figs. 7 and 19 but unnumbered to avoid confusing the figures) large enough to permit the passage of the stops 36 when in register therewith, the two notches being so located on their disks as to be out of register when the latter are in the relative positions shown in Fig. 19. Remembering now that the shaft makes one complete revolution every day it will be seen that once in each day the notch on the loosely mounted disk 37 will be brought into register with one of the stops 36, normally held against an unnotched portion of. the said disk by the force of the spring 27. The stop immediately flies into the notch, but is arrested by the escapement disk 37 whose notch, it will be remembered, is normally out of register with the other. The stop now holds the loose disk 37 against further rotation, but the rigidly mounted disk 3'? continues to turn, (extending the spring 41), until the escapement notch on the disk 37" is in register with the other, whereupon the stop flies past the disk 3? and the driving drum 2?, thus permitted to turn, advances the printing carriagev Instantly after the passage of the released stop the spring 41 separates the notches on the escapement disks, so that by the time the next stop 36 reaches the escapement device it encounters the periphery of disk 37 and is arrested thereby, thus stopping disk 31, driving drum 27, and the printing carriage K.

As previously stated, the release of the stop disk 31 takes place once each day, and as three stops 36 are provided, permitting the disk to make a third of a revolution at each release, the disk 31, gears 29, 2S, and driving drum 27 are so proportioned that the resulting movement of the printing carriage will be just equal in extent to the width of a day-column on the record sheet.

The hour at which the release of the stop disk 31 and the resulting adjustment of the printing carriage take place is of course the hour at which the escapement notches reach their lowermost position. In order to make this occur at any instant desired the shaft 38 is capable of axial movement in its bearings to disengage its driving gear 42 (see Fig. 1) from the clock-movement to permit the shaft and the escapement device to be turned independently of the clock. To enable the adjustment to be effected more conveniently the shaft 38 may be provided with an indicating disk 43 hearing on its periphery the hour-numbers 1, 2, 12, 1, 2, 12.

At the end of the week, when work is stopped, the printing carriage stands over the Saturday column on the record sheet, and is then retracted manually to the Monday position. his movement of the carriage winds up the spring 27*, and of course rotates the stop-disk 31 in the reverse direction. To permit such reverse rotation the stops 36 have their rear edges inclined so that as they engage the escapement disk 37" they will be cammed downwardly and under the disk against the spring 35.

The time-printing wheeZs.These devices, designated by 1 1, are mounted in the carriage K, and are rotated by a clock-driven shaft 15 which is of polygonal cross section so as to transmit motion to the parts but permit the shifting of the carriage as before de scribed. Between the time-printing devices and the record sheet is an ink ribbon 4:6, wound on two spools mounted on opposite sides of the carriage, one of said spools being shown at 4:7. The precise construction and arrangement of the time-printing devices is immaterial, and as devices of the general type indicated are well known in the art further explanation is deemed unnecessary.

Mechanism for depressing the time-print ing devices 2 0 efieet the p;'"iatia .Tlie shaft D, on which the printing drum J is mounted, is tubular at its forward end, as shown in Fig. 1, and. in this tubular portion is a reciprocatory plunger 47 the front end of which is loosely engaged by the lever F. At the rear of the tubular portion, just inside the casing A, the shaft D carries an axially movable collar 48 connected to the plunger 17 by a transverse pin 49 extending through slots 50 (Figs. 4 and in the sides of the shaft D. It will therefore be seen that when the plunger is moved inwardly by the actuation of the printing lever the collar 18 will be moved toward the rear on the shaft D. In its inward movement this collar engages the lower end of a lever 50, fulcrumetl on trunnions 51, and having its upper part circular in form, as shown in Figs. 5 and 7, to accommodate the clock-driven shaft At its upper end the lever 51 is provided with an adjustable stud in position to engage the depending end of a right-angled arm or lever 53, the rearwardly extending horizontal portion of which overhangs a long narrow rearwardly extending frame at, pivoted at its ends (one of the pivots being shown at 5%) and having its inner edge lying over the vertically movable time-printing devices K. A strong spring 55, connected to a laterally extending arm serves to hold the frame normally with its inner edge raised. It will now be seen that when the finger 53 is actuated by the lever 50 the innor edge of the frame 5-1- will be depressed, thereby de ar-essing the time-printing devices K in whatever position the latter may happen to be on the supporting rail N. Upon release of the operating lever F the frame 54: is restored to its initial position by the spring 55, and the printing devices are again raised by a spring 56 (Fig. 1) suitably connected thereto.

Mounted on the pivot 5 1 is a horizontal lever 57, carrying a pin 58 overhanging the arm 55, so that as this arm is raised by the movement of the finger 53, the outer end of the lever 57 will be raised, bringing a pivoted finger 60 (Fig. 18) into engagement with an actuating stud 61 on the pivotally mounted clapper or hammer 2 and swing ing the latter away from the gong (33 against the tension of a spring ca. Just the finger (30 reaches the upper limit of its movement, at the instant the timeprinting devices strike the record sheet, the stud GO escapes the finger, releasing the clapper and allowing the same to be thrown against the gong by the spring (i l. As the finger descends with the arm 57 it swings idly past the stud GO to its initial position.

The devices for prevent 572,7 miumteement of file printing carriage amt-2] after the first registration on 1l10mZ (z@ .As previously stated, the stop-disk 31, which controls the aily movement of the printing carriage, is released each day. rlence, if there are only six day columns on the record sheet the Sunday release of the stop-disk would shift the carriage off the h londay column and on to the Tuesday column. To prevent this occurrence the carriage-s11pporting frzuue M is M provided with catch 65 having a beveled low-er face, and. on the frame 54, which, it

will be remembered, is the elenient hich depresses the carriage, is a cooperating stud (36 having a beveled top as shown in Fig. Now when the carriage is retracted to the lflonday position and slightly beyond, the beveled faces of the parts nained cooperate depress the frame and thus permit the catch 65 to pass over the stud. Being thus held by the stop or stud 66 the printing carriage cannot advance when the stopis z is released. by the escapeinent on Satun ay and Sunday; but when the first work- 112.1] to arrive on ltctonday actuates the printlever F to record his time of arrival the H'LSSl'OD of the frame 5 1-, as previously derib d, releases the catch 5 and allows the arriaee to move forward until arrested. e nionday column, by one of the stops 6 engag ng the cscapeuient device 37.

2o lhercaftu each release the stop-disk 31 will eauie the carriage to move forward to the next dav-eohunn.

ilfecizcm'sm for shifting the impression drum to effect the mend/Out 87)(LCZ"7Z/.- The collar L8, which, it will be reinen'ibered, is slid rearwardly on the shaft D by the manipulation of the operating lever F, is

formed with. a circumferential roove 48 1 I 1 I a eno'aoeu o the forked end of a downwardl :3 Q I y extending lever 70, so that as the collar moves toward the rear the lower end of the lever Just mentioned Wlll be thrown forward thereb advancing the link 71 to which ,J 1 said end of the lever is connected. This link is conncc ed at its re. r end to a second f. d lever 72 (see fulcrunicd on *ardlv extending arm 78 and on cfe; with its forked upper end a circumferenroove 74 on the forward end of the 1 adjustable printing drum. It will herefore be seen that as the link 71 is ad- 1 r by the operating lever F through the instriunentality of the connecting parts the lever 72 will e ictuated and will slide the impression druin rearwardly under the printing devices. The link 71 is of the telescoping construction shown in Fig. 3, and the parts are conue :ted by a coil spring 71, so that although the link must move as a unit toward the rear it is capable of stretching or elongation, as it were in its for ard niovein-ent if the lever 72 be held.

ssociated with the arm 7 and lever '72 is a. b havinghorizontalportion'Zfinrouut- Q a. louo itudinal slot Y? and stud as to be capaand having a L v extending por- L .16. with a horizontal slot 90 l '2 iosely engages a stud 81 on Ll the drum shi ting); lever :2

hereoi ,he lever the link 71, is i orinally held )OSlt] :11 shown 1n Fin: c by a strong? 82, with the lever 72 as in Fig. 3

with "he bar 75 in its rearniost oositiou and l J 1 with the U1'l11t111g drain in its inost aovancec position.

Pivoted by its upper end to the at a point between the l nk the point of attachment o: depending yoke 83, the 1. lower end of which is connected Sliol downwardly extending portion of a b u linger S l pivoted at its bend to the lever i;

and having a long horizontal p irtion 843 tending forwz rdly toward an arc-shape stop-1ne1nbcr having a row of stops or tcetl 86, these steps being arranged in the a c a circle whose center is the fulcrum of t lever 72. on the arm '7 0n tlc yoke 1 a lateral ear 8?, in which is in u l screw 88 adapted to bear the bar iii--79,

. being held in sun positii'n by a spring 89 connected with the yoke and i518 lever "L. It will now be a parent that. with tlie parts i1 their initial p4: "it ie.

1 the forward movement of linlt ll w actuating the lever 72 swing the linger 8:- Lpwardly and forv-rardly past the stops 8 unless said inner be depressed so as to can counter no or the stops; and. ii t the finger will be so depressed it the ad r tiuo yoke be swung toward the rear. It will also a h be apparent t rat, inasin n as the yoke and lover are connected by the s ring]; which also holds th stop-screw SS in contact with the bar 7579, the first effect of the forward inovei'ncnt of le er 72 will be to advance the said bar, and that if the bar *ncountcrs no resisance sufiicicnt to ovcrcoun: the tension of the spring 89 the ad usting yoke will. not be swung to the rear and co sequently the lnger 85 will not he dcpre, Fl and hence n 7L4 7 -]V Cvnill coin no to o: o or t e stops on unslv been sliding urther movenow snuply of "he link i; rovideul: in iol'indintg t of the iniprc. sion d um is a circular 5- y s or crown r aXi: t lf'lal ratchet as 9?. (sec 1, slidahly mounted in riplurv of a pair of snared igridly iiun'iuted on the said r of pin p "dcd being ntal spaces on .L I l V I l the record sheet carried by too impression drum and each pin being alined with one of said spaces. Just inside the disk 96 and rigidly connected thereto is a disk 98 hav ing a beveled edge engaging one or another of the forwardly extending teeth on the inner edge of each of the ratchet pins; from which fact the disk 98 may be conveniently termed the pawl disk. The pins are all held yieldingly against the edge of the pawl disk by spring tongues 99 on a spring band 100 encircling the pins, so that the forward por tion of each pin can be swung radially outward from engagement with the pawl disk to permit forward movement of the pin. In front of the supporting disk 97 each pin has an inwardly extending lug 101 to limit the rearward movement of the pin, and at the rear end is a similar lug 102 to limit the forward movement of the pin unless sooner arrested by the pawl disk, or by the returning-disk, hereafter described.

Extending upwardly from the arresting bar 75 is an adjustably mounted finger 108, below and in the same vertical plane as the axis of shaft D, the finger being so adjusted on the bar as to lie immediately in rear of the lowermost pin of the crown. It will therefore be seen that this lowermost pin, whichever it happen to be as the operating lever F is swung around over the dial, stands in the path of the finger 103 in position to engage the same and thus arrest the bar 75, with consequent depression of the stop finger 85 as previously described. It will also be apparent that the point atwhich the bar is arrested, and, in conse quence, the particular one of the stops 86 engaged by the stop-finger and therefore the extent of the rearward adjustment of the impression drum, depends upon the position of the lowermost ratchet pinwhether in its initial position, as in Figs. 3 and 1%, or advanced one or more steps, as in Fig. 1G, for example.

For the purpose of advancing the ratchet pins, to select the stop to be engaged by the stop finger 88, the following devices are provided: Pivoted to the inner end of the arm 57, which it will be remembered, moves with the frame in the printing operation, is a dowmvardly extending rod 104 (Figs. 4, T, 12, and 1-l-. to 17 which is depressed each time the said frame is actuated. T iis rod has its lower end bent toward the rear into juxtaposition to the pinsupporting disk 00 and teri'ninating just above the lowermost pin of the crown, so that at each downward movement of the rod the lowermost ratchet pin will be carried by the rod radially outward, out of engagement with the pawl disk 98, as in Fig. 15, for example. At this time the finger 103 on the forwardly moving bar 75 strikes the pin 95 (Fig. 15) and having carried the pin forward far enough for the tooth previously in engagement with the pawl disk 98 to clear the same, would advance the pin farther but for the fact that the latter comes immediately into engagement, on its foremost tooth, with the pointed end of the rod 104, which acts as a pawl and holds the pin against further movement. The arresting bar 75 is thus brought to rest, the stop-finger 85 (Fig. is depressed into engagement with the lowermost or first of the stop-teeth 80, and the impression drum is arrested, having been moved forwardly ust far enough to carry past the impression point the right-hand or rearward ruling of the day column over which the printing carriage happened to be standing. The impression is now made by the continued downward movement of the printing carriage under the printing or carriage-depressing frame oat. Upon the release of the lever F by the operator, the bar 75 and the connected parts are restored by the spring 82 (Fig. 4) to their initial positions, shown in Fig. 3, and the rod 104i is lifted out of engagement with the depressed ratchet pin; whereupon the spring tongue 100 carries the pin back into engagement with the pawl disk, but on the fourth tooth (from the left) of the pin instead of the third, since, as will be remembered, the finger 108 previously advanced the pin till its third tooth was clear of the disk.

Suppose now that the workman having arrived late, wants to obliterate or render illegible the record nst made, or that he desires to register out on leaving for his noon meal. Grasping the operating handle or lever F he turns it to his number. This again brings his ratchet pin to the bottom of the crown, in front of the pin-advancing finger 103. On pushing the handle in, the drun'i-arresting bar 7-5 is advanced as before described, but the finger 103 does not imme diately strike the ratchet pin because the latter has already been advanced one step by his previous operation of the machine. On the contrary the finger 103 and bar 75 have to move farther to engage the pin, and, having engaged the latter, have to move still further before the pin is arrested by the rod 10st engaging the second tooth on the pin. Consequently the impression drum is moved farther to the rear, carrying the first imprint past the impression point and bringing the next blank space under the timeprinting devices. It will therefore be seen that it is impossible for the operator, either by accident or by design, to register more than once on each space, since the drum is automatically advanced one step prior to each imprint.

Mechanism for restoring the ratchet pins to their initial 720siti0ns.-It is evident that after the workmen have all recorded their last out for the day and before the first arrival the next morning the ratchet pins should be returned to thc'r initial positions, as shown in Fig. 3. This is effected as follows: In front of the circular series or crown of pins, 10, is a collar or sleeve 110, (Fig. 1) mounted loosely on the shaft D so as to be capable of moving axially thereon but without turning with the shaft, and mounted rigidly on the sleeve is a pin-returning disk 111 having an inclined rim 112 on its rear face, in position to engage the rent ends of the pins and carry them back Just the pawl disk when the sleeve is shifted o the rear on the shaft D; the inclined cam rim 112 serving to hold the pins clear of the pawl disk 98 during their rearward movement, as shown in Fig. 17. Eftending forwardly from the sleeve 110 is a link 113 connected at front end to a crank disk 114i. (Fig. on one end of a short transverse shaft 115. On the other end of this shaft is a gear 116, meshing with a larger 11?' on the vertical shaft 30, which, it rill be remembered, makes a thirt of a revolution each day. The ratio of the 'ears just mentioned is 1:3, so that the gear 116 will make one revolution each day. It will therefore be sewn that once a day the disk 111 will he slid back against the ratchet pins and will carry the latter rearwardly to their initial positions. It is of course understood that the parts are so arranged that the return of the ratchet pins to their initial. positions will take place long enough after the close of work on the one day and long enough before the beginnig of work on the following day to keep the disk 111 well out of the work of the pins during working hours.

It? echanism for preventing injum t0 the time-printing devices 717 careless or rough usage in operating the nmc/n'n-e.llesting loosely in the fork of lever is a short horinontally arranged member 120 (F 10), having a lug 121 extending upwardly into the groove 48 The rear portion of this member rests on the tapering upper end of a pin or stud 122 and has on its lower edge, in front of said stud, a downwardly extending cam lug Now if the operating lever F is nnnipulated without undue violence the lug 123, as the collar 48 moves to the rear, will ride gently over the stud 122, and drop behind the same, permitting the member 120 to pass under the forwardly extending step 121- and the collar 48 to conr plete its movement, as shown in dotted lines in Fig. 11. But if the operating lever is actuated too violently the sudden impact of the lug 113 against the stud will throw the mem- 381' up and cause its notched rear end to enthe stop 12%, as shown in Fig. 11 in full lines, thus arresting the collar 18 before it. has moved for enough to complete the actua tion of the printing devices. Inasmuch as the hell does not ring unless an imprint is r made, the operator knows that his registrw tion has not been effected and. soon learns that he an register only by gentle handling of the machine.

Dcoiocs for securing t/zc record s/wcz, on Hm impression druna-r1t one side of the drum, along the line corresponding to the blank space which will be seen at the top of the dial in Fig. 2, the drum is provided with a longitudinal slot 1530, (Figs. 21 and 2 opening into a cylindrical casing on the inside of he drum. Fitting smoothly but not snugly in this casing is a tubular clamping member 1-31, having one side slotted, as shown at 132, and provided at one end with a knob 133 by which the clamping member can be rotated. l i hen it is desired to mount a record sheet on the drum the clamping memher is positioned with its slot over the drum slot. The record sheet is now wrapped around the drum and its edges aic thrust through the slot 1?; The clamping member is then turned, for example counterclockwise, causing the edge of its slot to pull the edges of the sheet over the drum-slot edges and drawing he sheet :aut around the Cram a vill be readily understood. To release the sheet it is only necessary to turn the slot .132 back into er with the other.

Opcrai'ions l he function and mode of operation of the various parts having been already explained, a brief summary, to show the order in which the parts opor: to, will now be sutlicient. When the operator desires to register his time of arrival or departure he turns the operating lever F to his nu her, thereby bringing his line on the recoi sheet under the time-printing devices, .1 and bringing his ratchet pin 95 'o the bottom of the crown and in front of the pinadvancing finger .103. He then presses firmly on the knob G, thrusting the stem it into the aperture C co 'respoi (lillyj to his number. This movement of the lever l? moves the %ollar l8 rcarwardly on the shaft ll, thereby depressing the printing devices K and the rod 10st through the instrun'ientality of the printing frame 3- and swing ing the lever 2 clockwise vie d i Fig. 1) through the int umentrlity of the lever 0. The lever shifts t'l). impression drum J reaiwardly until the finger 19 carried 'nto contact with the lowermost ratchet pin, is arrested by the rod engaging the pin. The drum thus brought to rest. The printing carriage, lmw-evrr. continues its downward increment. and

makes a time-imprint on the record sheet mounted on the impression drum. The gong having been rung, the operalor re leases the handle F, whereupon the riage is raised and the drum returned to initial position. lit the no time l ratchet pin is left in the position to whi.

1S had been advanced by the finger 103, st

that at the next operation of the machine by the same workman the drum will be carried past the previous imprint and will thus present an unprinted space to the impression point. Once each day, after the close of work the stop disk 31 is released by the escapement device 37, permitting the printing carriage to be advanced one day space, and before the beginning of work the next day the ratchet pins which have been advanced one or more steps are restored to initial position by the returning-disk 111. At the end of the week the printing carriage is retracted, manually, on the supporting rail N, causing the catch to be engaged by the stop 66 so that the release of the stop-disk 31 on Sunday will not cause the carriage to be advanced to the Tuesday column on the record sheet. The first registration on Monday releases the carriape and allows it to be advanced when the stop disk is next released.

As previously stated, the construction herein specifically illustrated and described exemplifies the invention in only one or the many forms in which it may be embodied *ithout departure from its proper spirit and scope as defined by the following claims.

I claim 1. In a time recorder, the combination with timerecording instrumentalities comprising a timeprinting element and an element for supporting a record sheet in position to receive time imprints from the first named element, time-controlled mechanism for shifting one of said elements day by day from its initial position whereby to print the days records in successive columns on the record sheet, and manually actuated means for taking time-imprints from the time-printing element upon the record sheet, of releasable means for locking said shittable element in its initial position until a time-imprint is taken.

2. In a time recorder, the combination with time-recording instrumentalities com prising a time-printing element and an element for supporting a record sheet in position to receive time-imprints from the first named element, mechanism for shifting one or" said elements day by day from its initial position whereby to print the days records in successive columns on the record sheet. and manually actuated means for taking the timeimprints from the time-printing ele ment upon the record sheet, of means releasable by the said manually actuated means for locking the said shiftable element in its initial position.

In a time recorder, the combination with a time-printing carriage, an element for supporting a record sheet in position to receive time-imprints therefrom, manually actuated means for taking such imprints on a record sheet so supported, and time-con trolled mechanism for advancing said car riage day by day from its initial position whereby to print the days records in successive columns on the record sheet, or releasable means for locking said carriage in its initial position, said means being released, to permit advance of the carnage, by acti ,tion of the said manually actuated ilDPliilt-ttlliing means.

4. In a time recorder, in combination, element for supporting record sheet, timeprintinp; carriage movable toward and from said element, a fixed rail slidably supporting the carriage in position to make time-imprints on a record sheet supported by said element, a manually actuated element engaging the carriage to move the same toward the record sheet supporting lenient to produce the time-imprints, tiniecontrolled mechanism for advancing the carriage on said rail day by day from its initial position whereby to print the days records in successive columns on the record sheet, and cooperating stops, to lock riage in its initial position and releasable by the movement of the carriage toward the record sheet supporting element to produce a time-imprint.

5. In a time recorder, in combination, a record sheet supporting element, a fixed rail extending longitudinally of said element, a tin'ie-printing carriage having a portion slidably mounted on said rail and having); a portion capable of movement relatively thereto toward and from the record sheet supporting element, a manually actuated element extending along the path of the can riage and engaging the carriage to move the same toward the said element, time-routrolled mechanism for advancing the car riage on the rail day by day, a stop mount ed on the slidable portion of said carriage and a cooperating stop mounted no he manually actuated element in position to cnthe stop on the carriage when the car-- rings is in its initial position, the said cooperating stop being released from the other, to permit advance of the carr e, by movement of said manually actuated e e ment to produce a time-imprint.

G. In a time recorder, the combination of a fixed supporting rail, a frame slidably mounted thereon, time printing devices mounted in the "f *ame and ca )able of: move ment therein from and toward the rail. a manually actuated element parallel to the path of the time-printing; devices and engaging the latter to move the same away from the rail, time-controlled mechanism for advancing; the frame and time-printing devices on the rail day by day from an i tial position, a stop mounted on said. frame, and a cooperating stop mounted on the manually actuated element in position to engage the first named stop when the frame and time-printing devices are in said initial Elli the carposition, the cooperating stop being releasable from the by the movement of the said manually actuated element.

7. In a time recorder, the combination of a fixed supporting rail, a frame slid-able thereon, a depressible printing carriage n'munted in the tram cam stop carried by the 1'; me, a manually depressible element engaging t 1e carriage to depress the same, time-controlled mechanism for advai'icing the frame and carriage on the rail day by oay from an initial position, and a cooperating cam stop mounted on the de pressible element in position to be cammed by the tramestop out of the iath thereof as the said frame is retracted to its initial position and to engage the said frame-stop thereafter to hold the frame and carriage in their initial position until the stops are dis enga ed by depression on the said element.

b n a worlnnans time recorder, in combination, an element for supporting a record sheet provided with spaces for the timere ot' the dir'erent workmen, a timeprinti1 y nent for printing the timerecords ing; one o:

ression point, a series of ratchet each workman, to limit the l: alie shittable element, mecha- ,opropriate rachet pin a prence each time a time-record le 7 time-controller means for up; the advanced pins to their initial. is

n. In a worlnnans time recorder, in combinz'ztion, a rotatably and axially shittable drum for suinmrting a record sheet having Jug spaces for the time-rec- ,l workmen, tim -printing *n' inq' the time-record on the circular series of ratchet pin (1 H111, means for shitte record-sheet, a mail al ever he drum to bring tle said ecord sheet singly to the 1111- means actuated by the said i impressions from the timelev :es on the record sheet, mechaent for operation upon actua tion of the last named means, for shifting the drum axially, a circular series of z x'ally arranged ratchet pins rotatable with the drum, a finger advanced by said mechanism to engage and advance the appropriate pin when said mechanism is operated to shitt the drum, a pawl for limiting the movement of the advancing pin and linger to arrest tie drum, and time-controlled means for rer oring' theadranced pins to their initial positi, ns.

11. In a time recorder, the combination with time-printing; devices, a record sheet supporting drum, manual means for rotating the drum to bring axially extending spaces on the record sheet singly t0 the impression point, mechanism tuated by said means for taking imprints from the timeprinting devices on the record sheet, and means actuated by said mechanism for advancing the drum axially to bring to the impression point unprinted portions of said axially extending spaces on the record sheet; of means for arresting the drum at succes sive points in its path, comprising a plurality of axially extending ratchet pins arranged in a circular series around the axis of the drum and rotatable therewitl'i, a linger movable with the drum and adapted to engage and advance the appro n'iate ratchet pin, and a pawl actuated by the imprint-taking: mechanism to limit the movcn'ient of the ad vancing pin and linger and thereby arrest the drum; and time-controlled IIlCClltllllSHl for restor'ng the advanced pins to their i.nitial positions.

12. In a time recorder, the combination with a record sheet supporting drum, ro tatable to bring axially extending spaces on the record sheet singly to the impression point, ano axially to bring to the impression point unprinted portions of said spaces; of means for arresting the drum at successive points in. its Jiltll, comprising a crown of axially extending ratchet pins in advance of the drum and rotatable therewith, means movable with the drum for engaging and advancing the appropriate pin as the drum is advanced, and a pawl arran ed to arrest the advancing pin and finger ane thereby arrest the drum; and means for ester-ingthe advanced pins to their initial positions.

In a time recorder, in eombii ation for the purpose set forth, a rotatable and axially movable drum for supportinga record sheet, a linger movable with the drum in a path parallel to the axis tl ereot, a plurality of ratchet pins arranged in a circular series around the axis of the drum and across the path of said finger, the series of pins being rotatable with the drum to carry the pins sino'ly into the path of said finger for ad vancement thereby, a pawl adapted to enthe advancing pin to arrest the same at successive points in its path, and means for restoring the advanced pins to their initial positions.

14. In a recording machine, a printing couple including two elements having relative shifting movement laterally into successive transverse relative positions, and the elements having relative lateral displacing movement a distance equal to a plurality of the successive lateral shifting movements, shift-able means for determining the successive transverse relative positions of said elements, and means for reset-ting the firstmentioned means and efiecting the relative displacing movement of said elements at one operation, substantially as and for the purpose described.

15. In a recording machine, a printing couple including elements having relative positioning movements into longitudinal and successive transverse positions, said element-s also having relative lateral displacing movement a distance equal to a plurality of the relative successive lateral shifting movements in one longitudinal position, means for moving said elements in longitudinal and transverse directions, means for determining the successive transverse relative positions of said elements including a series of successively effective shoulders for each of the relative longitudinal positions assumed by said elements, and means for resetting the position determining means and efiecting the relative displacing movement of said elements in one operation, substantially as and for the purpose specified.

16. In a recording machine, a printing couple including an element consisting of rotatable drum for supporting tw o record sheets side by side on its periphery, and a type carrying element, said elements having relative shifting movement laterally into successive transverse positions, and the elements having relative lateral displacing movement a distance equal to a plurality ot the successive lateral shifting movements, means for rotating the drum and shifting the shift-able element laterally, means for determining the successive transverse positions including a series of successively efiective shoulders, and means for resetting the position-determining means and for effecting the relative displacing movement of said elements at one operation, substantially as and for the purpose set forth.

17. In a recording machine, a printing couple including elements having relative positioning movements into longitudinal and successive transverse positions, said elements also having relative lateral displacing movement a distance equal to a plurality of the relative successive lateral shifting movements in one longitudinal position, means for moving said elements in longitudinal and transverse directions, means for determining the successive transverse relative positions of said elements including a series of successively effective shoulders for each of the relative longitudinal positions assumed by said elements, and means for resetting the position determining means and effecting the relative displacing movement of said elements in one operation, the last-named means including a motor spring and powertransmitting parts actuated by the spring, and coacting with the position determining means and the laterally displaceable element, substantially as and for the purpose described.

18. In a recording machine, a printing couple including elements having relative positioning movement into longitudinal and successive transverse positions, said elements also having relative lateral displacing movement a distance equal to a plurality of the relative successive shitting movements of said element in any one longitudinal path, means for shifting said elements into longitudinal transverse positions including a handle, means for limiting the relative lateral shifting movement of the elements into successive transverse positions including a series of successively efi'ective shoulders for each of the longitudinal posit-ions assumed by said elements, means for resetting the limiting means and effecting the relative displacing movement of said elements in one operation, said means including a motor, means for normally preventing the resetting means from actuation by the motor, and time controlled means for releasing said holding means, substantially as and for the purpose set forth.

In testimony whereof I atliX my signature in the presence of two subscribing witnesses.

JAMES F. KIELY.

Witnesses:

L. F. GIBLIN, S. H. CHAMBERLAIN.

copies of this patent may be obtained for five cents each, by addreulng the Commissioner of Patent:- Wuhl'ngton, D. 0." 

